CN216585729U - Combined device and clothes treatment device - Google Patents

Abstract

The utility model provides a combined device and a clothes treatment device, wherein the combined device comprises a heating component and an electrolytic piece, the electrolytic piece is positioned on one side of the heating component in a first direction or a third direction, the third direction is vertical to a plane where the heating component is positioned, and the first direction is vertical to the third direction. The installation of the heating component and the electrolytic part in a narrow space in the clothes treatment device is facilitated, the space required to be assembled is saved, and the universality is increased.

Description

Combined device and clothes treatment device

Technical Field

The utility model belongs to the technical field of cleaning, and particularly relates to a combined device and a clothes treatment device.

Background

The hydroxyl free radical (OH) has extremely high oxidation potential (2.80eV), has extremely strong oxidation capacity, can generate rapid chain reaction with most organic pollutants, and can indiscriminately oxidize harmful substances into CO₂、H₂O or mineral salt, and has no secondary pollution. In the related art, the assembly of an electrolytic part in a washing machine may generate hydroxyl radicals for sterilization. However, the clothes treatment device can be installed in a narrow space, the electrolytic part is independently installed on the washing machine and is easy to collide with parts such as a washing machine barrel, and the electrolytic part and the heating pipe are designed into an integrated structure in the related technology; but the related heating tube and the electrolytic element are inconvenient to install and the heating tube in the integrated structure has low heat dissipation efficiency.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a combination device and a clothes treating apparatus to solve at least one technical problem in the background art.

The technical scheme of the utility model is realized as follows:

an embodiment of the present invention provides a combination apparatus, including: a heating assembly and an electrolytic element; the electrolytic piece is positioned on one side of the heating assembly in a first direction or a third direction, wherein the third direction is perpendicular to the plane of the heating assembly, and the first direction is perpendicular to the third direction.

In some embodiments, the assembly further comprises a fixture to which the heating assembly and the electrolytic element are both secured.

In some embodiments, the heating assembly and the electrolytic element are at least partially located on the same side of the fixture.

In some embodiments, the assembly further comprises a fixture, and the heating assembly and the electrolytic element are each connected to the fixture.

In some embodiments, the electrolyte member includes an electrode and a conductive connector electrically connected to each other, the fixing member is formed with a first mounting hole therethrough, and the conductive connector is sealingly disposed through the first mounting hole.

In some embodiments, the fixing member is formed with a second mounting hole therethrough, and one end of the heating assembly is sealingly disposed through the second mounting hole.

In some embodiments, the heating assembly comprises:

one end of the first heating pipe is connected with the fixing piece;

one end of the second heating pipe is connected with the fixing piece and is arranged at intervals in the first direction with the first heating pipe, and the extending direction of the second heating pipe is parallel to the extending direction of the first heating pipe;

and the connecting body is connected with the other end of the first heating pipe and the other end of the second heating pipe.

In some embodiments, the heating assembly includes a first heating tube and a second heating tube, the first heating tube and the second heating tube are symmetrical with respect to a first plane of symmetry, the electrolytic element is symmetrical with respect to the first plane of symmetry, and the first plane of symmetry is parallel to the third direction.

An embodiment of the present invention further provides a clothes treatment apparatus, including:

a combination as claimed in any one of the preceding claims.

In some embodiments, the laundry treating apparatus includes an inner tub rotatably disposed within the outer tub, and an outer tub between which the electrolytic member and the heating assembly are disposed.

In some embodiments, the laundry treating apparatus includes a mounting bracket connected to an inside of the outer tub, the heating assembly being supported on the mounting bracket.

According to the combined device and the clothes treatment device provided by the embodiment of the utility model, the electrolytic piece and the heating assembly are superposed along the third direction, or the electrolytic piece and the heating assembly are arranged in parallel along the first direction, so that on one hand, the heating assembly and the electrolytic piece are favorably installed in a narrow space in the clothes treatment device, the space required to be assembled is saved, and the universality is increased. On the other hand, the heating efficiency of the heating assembly is prevented from being influenced to a certain extent.

Drawings

FIG. 1 is a schematic structural diagram of a combined apparatus according to an embodiment of the present invention;

FIG. 2 is a side view of a combination device according to an embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is a schematic structural view of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 5 is an enlarged view of portion B of FIG. 4;

FIG. 6 is a schematic back structure view of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 7 is an enlarged view of portion C of FIG. 6;

fig. 8 is a perspective view of a combination device according to an embodiment of the utility model.

Description of reference numerals:

1. a heating assembly; 11. a first heating pipe; 12. a second heating pipe; 13. a linker; 14. a terminal; 2. an electrolytic element; 2b, a second electrolytic element; 2c, a first electrolytic element; 21. an electrode; 22. a conductive connector; 221. a cathode conductive connector; 222. an anode conductive connector; 3. a fixing member; 4. a fastener; 5. a fastener; 6. an outer tub; 7. mounting a bracket; 8. a connecting member; 10. and (4) a combination device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The individual features described in the embodiments can be combined in any suitable manner without departing from the scope, for example different embodiments and aspects can be formed by combining different features. In order to avoid unnecessary repetition, various possible combinations of the specific features of the utility model will not be described further.

In the following description, the term "first/second/so" is used merely to distinguish different objects and does not mean that there is a common or relationship between the objects. It should be understood that the description of the "upper", "lower", "outer" and "inner" directions as related to the orientation in the normal use state, and the "left" and "right" directions indicate the left and right directions indicated in the corresponding schematic drawings, and may or may not be the left and right directions in the normal use state.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. "plurality" means greater than or equal to two.

The utility model provides a combined device which can be applied to clothes treatment devices such as washing machines, washing and drying integrated machines and the like. It should be noted that the type of application scenario of the present invention does not limit the combination device of the present invention.

As shown in fig. 1, the embodiment of the present invention provides a combined device comprising a heating assembly 1 and an electrolytic element 2. The heating assembly 1 may heat the liquid within the laundry treating apparatus to a desired temperature. The electrolysis part 2 may electrolyze water in the laundry treating apparatus to generate hydroxyl radicals having strong oxidation activity to perform sterilization.

As shown in fig. 8, the electrolytic member 2 is located on one side of the heating element 1 in a first direction (X direction as shown in fig. 8) or a third direction (Z direction as shown in fig. 8), wherein the third direction is perpendicular to the plane in which the heating element 1 is located, and the first direction and the third direction are perpendicular to each other. The possible placement of the electrolytic element 2 in the first or third direction is schematically illustrated in fig. 8 by means of an electrolytic element 2c and an electrolytic element 2b, wherein the electrolytic element 2c is located on the side of the heating assembly 1 in the first direction and the electrolytic element 2b is located on the side of the heating assembly 1 in the third direction.

In the embodiment of the utility model, the electrolytic part 2 and the heating component 1 are overlapped along the third direction, or the electrolytic part 2 and the heating component 1 are arranged in parallel along the first direction, on one hand, the heating component 1 and the electrolytic part 2 are favorably arranged in a narrow space in the clothes treatment device, the space required for assembly is saved, and the universality is increased. On the other hand, influence on the heating efficiency of the heating assembly 1 is avoided to some extent.

As shown in fig. 1, the distance between the heating unit 1 and the electrolytic element 2 is less than or equal to a first set value and greater than or equal to a second set value, which is less than the first set value. That is, in the case that the heating module 1 and the electrolytic element 2 are integrally provided, the temperature of the heating module 1 in the operating state is high, and a certain distance needs to be kept between the heating module 1 and the electrolytic element 2 to improve the heat dissipation efficiency of the heating module 1. Of course, if the distance between the heating assembly 1 and the electrolytic member 2 is large, it is not convenient to integrally assemble the heating assembly 1 and the electrolytic member 2 into the laundry treating apparatus.

In the embodiment of the present invention, the first set value is 100mm, and the second set value is 1 mm. The embodiment of the utility model does not limit the specific position relationship between the heating assembly 1 and the electrolytic element 2, for example, the electrolytic element 2 can be arranged at any position outside the heating assembly 1, and the electrolytic element 2 can also be arranged inside the heating assembly as long as the distance between the electrolytic element 2 and the heating assembly 1 is 1-100 mm. In the case where any one of the heating element 1 and the electrolytic element 2 has a special-shaped structure, the distance between the heating element 1 and the electrolytic element 2 represents the minimum value of the distances between any one point on the heating element 1 and any one point on the electrolytic element 2. That is, the minimum value of the distance between any point on the heating element 1 and any point on the electrolytic element 2 is 1 to 100 mm.

According to the embodiment of the utility model, the distance between the heating assembly and the electrolytic piece is set to be 1-100 mm, so that on one hand, the distance between the heating assembly and the electrolytic piece is not too large, the heating assembly and the electrolytic piece are favorably installed into a whole in a narrow space, the space of the combined device required to be assembled is saved, and the universality of the combined device is increased; on the other hand, the distance between the heating assembly and the electrolytic piece is not too small to obviously reduce the heat dissipation efficiency of the heating assembly.

In some embodiments, as shown in fig. 1, the assembly further comprises a fixing member 3, and the fixing member 3 is used for connecting the heating assembly 1 and the electrolytic member 2. The fixing member 3, the heating element 1 and the electrolytic element 2 include various connection conditions, for example, in the first case, the electrolytic element 2 is connected with the fixing member 3, and the heating element 1 is connected with the electrolytic element 2, that is, the heating element 1 is indirectly connected with the fixing member 3 through the electrolytic element 2; in the second case, the heating assembly 1 is connected with the fixing member 3, the heating assembly 1 is connected with the electrolytic member 2, and the electrolytic member 2 is indirectly connected with the fixing member 3 through the heating assembly 1; in the third case, the electrolytic element 2 and the heating assembly 1 are each connected to a fixing element 3. Taking the application of the electrolysis part 2 and the heating assembly 1 to the clothes treatment device as an example, in the third case, as long as the electrolysis part 2 and the heating assembly 1 can be ensured to normally operate in the internal space of the clothes treatment device, the installation positions and the installation modes of the electrolysis part 2 and the heating assembly 1 are more flexible and free, and the operation of an installer is more convenient.

The heating assembly 1 and the electrolytic element 2 are at least partially located on the same side of the fixing element 3, which means that most of the structure of the heating assembly 1 with the heating function and the electrolytic element 2 are located on the same side of the fixing element 3. Of course, the heating assembly 1 may also be partially located on a different side from the electrolytic element 2 through the fixing element 3. The heating assembly 1 is integrated with the electrolytic part 2 through the fixing part 3, so that the heating assembly 1 and the electrolytic part 2 can be arranged more compactly; on the other hand, the electrolysis part 2 is convenient to be integrally disassembled and assembled, and the product is convenient to be updated. Taking the electrolytic element as an example for applying to the clothes processing device, if the heating assembly is configured in the original clothes processing device but the electrolytic element is not configured, if the electrolytic element is added for sterilization and disinfection to improve the performance of products, the original heating assembly can be detached, the electrolytic element of the utility model can be reinstalled at the position where the heating assembly is originally installed, and the clothes processing device can be upgraded and replaced under the condition of basically not changing other installation structures of the clothes processing device, so that the interchangeability is good, and the production cost is low.

In some embodiments, as shown in fig. 1, the electrolytic component 2 includes an electrode 21 and a conductive connector 22 electrically connected to each other, the fixing component 3 is formed with a first mounting hole (not shown) therethrough, and the conductive connector 22 is sealingly disposed in the first mounting hole, so as to reduce the risk of water leakage at the first mounting hole.

In some embodiments, as shown in fig. 1, the fixing member 3 is formed with a second mounting hole (not shown) therethrough, and one end of the heating assembly 1 is sealingly disposed in the second mounting hole, so as to reduce the risk of water leakage at the second mounting hole.

It will be appreciated that in some embodiments, as shown in fig. 1, the fixing member 3 may be formed with only the first mounting hole described above, without the second mounting hole; in another embodiment, the fixing member 3 has both the first mounting hole and the second mounting hole, that is, the electrolytic element 2 and the heating assembly 1 are connected to the fixing member 3 respectively.

It is understood that, as shown in fig. 2, the conductive connector 22 includes a cathode conductive connector 221 and an anode conductive connector 222, the electrode includes a cathode and an anode, the cathode conductive connector 221 and the cathode conductive connector are electrically connected, the anode conductive connector 222 and the anode conductive connector are electrically connected, and the electrode 21 is connected to the power source through the conductive connector 22. It will be appreciated that the cathode and anode are spaced apart, i.e. they do not touch at any point, so that proper operation of the conductive member is ensured.

As shown in fig. 1, the heating assembly 1 may be an electric heating tube, such as a glass heating tube, a stainless steel heating tube, a quartz heating tube, a ceramic heating tube, or the like. The embodiment of the present invention does not limit the specific form of the heating unit 1 as long as the liquid in the placed laundry treating apparatus can be heated.

In some embodiments, as shown in fig. 3, the heating assembly 1 includes a first heating tube 11, a second heating tube 12, and a connecting body 13. One end of the first heating pipe 11 is connected with the fixing piece 3; one end of the second heating pipe 12 is connected with the fixing piece 3, and the second heating pipe 12 and the first heating pipe 11 are arranged at intervals; the connecting body 13 connects the other end of the first heating pipe 11 and the other end of the second heating pipe 12. The first heating pipe 11, the second heating pipe 12 and the connecting body 13 may be integrally formed. The connecting body 13 can be made in various desired shapes. The first heating pipe 11 and the second heating pipe 12 are arranged at intervals, so that the heating area of the combined device is increased.

It is to be understood that, for the convenience of wiring, as shown in fig. 1 and 2, the connection terminal 14 may be fastened by welding or the like at the end of the heating module 1. Specifically, the connection terminal 14 is fastened after one end of the component 1 to be heated passes through the second mounting hole.

In some embodiments, the heating assembly may have a temperature control function, for example, a bimetal is placed in the heating assembly, the bimetal is two kinds of bimetal made of different materials, and is combined together by using a special process, the bimetal deforms according to temperature changes due to different expansion coefficients when the temperature changes, a contact switch is formed in the heating tube by using the bimetal, and the contact switch can be automatically turned off to control the temperature after the temperature is reached.

In other embodiments, a temperature control structure may be additionally disposed outside the heating assembly to control the heating temperature. Can install the temperature controller integration on the mounting, promote composite set's integrated level, reduce the installation degree of difficulty. The type of the temperature controller is not limited.

As shown in fig. 1 to 3, the first heating pipe 11 and the second heating pipe 12 are spaced apart in a first direction (the up-down direction shown in fig. 1), and the distance between the first heating pipe 11 and the second heating pipe 12 in the first direction is smaller than a set value.

It should be noted that, referring to fig. 8, the first direction in the embodiment of the present invention is a direction in which the first heating pipe 11 and the second heating pipe 12 are spaced apart, that is, an x direction; the second direction is the extending direction of the heating element, i.e. the y-direction shown in fig. 8; the third direction is a direction perpendicular to the plane formed by the heating elements, i.e., the z direction shown in fig. 8.

In some embodiments, as shown in fig. 1 and 8, the electrolytic element 2 and the heating assembly 1 are located on the same horizontal plane, and the minimum distance between the electrolytic element 2 and the heating assembly 1 in the first direction (up-down direction shown in fig. 1) is greater than or equal to 1mm and less than or equal to 100 mm. The embodiment of the utility model does not limit the specific position limiting relationship between the electrolytic element and the heating assembly in the first direction, as long as the electrolytic element and the heating assembly are positioned on the same horizontal plane.

In some embodiments, as shown in fig. 1, the electrolytic element 2 is disposed between the first heating tube 11 and the second heating tube 12 in the first direction (up-down direction in fig. 1). The minimum distance L1 between the electrolytic element 2 and the first heating tube 11 or the second heating tube 12 in the first direction is greater than or equal to 1mm and less than or equal to 100 mm.

In some embodiments, as shown in fig. 1, the electrolytic element 2 is disposed between the first heating tube 11 and the second heating tube 12 in the first direction (up-down direction in fig. 1). The minimum distance L2 between the electrolytic element 2 and the connecting body 13 in the second direction is greater than or equal to 1mm and less than or equal to 100 mm.

In some embodiments, as shown in fig. 1 and 2, the first heating pipe 11 and the second heating pipe 12 are symmetrical with respect to a first plane of symmetry, which is a plane perpendicular to the paper surface in fig. 1, and which is a line (dashed line in fig. 1) when viewed from the front to the back in fig. 1. The electrolytic element 2 is a symmetrical structure, and the electrolytic element 2 is symmetrical relative to the first symmetrical plane, so the symmetrical plane of the electrolytic element 2 coincides with the symmetrical planes of the first heating tube 11 and the second heating tube 12. In this case, the electrolytic element 2 may be disposed at any position in the direction perpendicular to the plane of symmetry, and the extending direction of the first plane of symmetry is defined as the third direction (the direction perpendicular to the paper surface as shown in fig. 1), and then the electrolytic element 2 may be disposed at any position in the third direction as long as the electrolytic element 2 is symmetrical with respect to the first plane of symmetry. For example, if the perspective shown in fig. 1 is the direction perpendicular to the plane of the paper as viewed from the front to the back, the electrolytic element 2 may be located in front of the heating element 1, behind the heating element 1, or at the same position as the heating element in the front-back direction. It should be noted that the distance between the electrolytic element 2 and the first heating tube 11 or the second heating tube 12 in the third direction is smaller than the third setting value.

In some embodiments, as shown in fig. 1 and 2, the electrolytic element 2 is disposed between the first heating tube 11 and the second heating tube 12 in the first direction (the up-down direction shown in fig. 1), that is, the distance between the electrolytic element 2 and the first heating tube 11 and the second heating tube 12 in the third direction is substantially zero, which includes the case that the electrolytic element and the first heating tube or the second heating tube do not exactly overlap in the third direction, and the distance in the third direction is considered to be less than 10mm, i.e., to be substantially zero, so that the processing and installation errors can be covered.

According to the embodiment of the utility model, the electrolytic piece is arranged between the first heating pipe and the second heating pipe, namely the electrolytic piece is positioned in the interval, so that on one hand, the first heating pipe and the second heating pipe can keep a certain distance to increase the heating area, on the other hand, the electrolytic piece can be provided with an accommodating space, and the structure of the combined device can be more compact.

In some embodiments, as shown in fig. 1, the spacing H between the first heating tube 11 and the second heating tube 12 is greater than or equal to 20mm and less than or equal to 300 mm. According to the embodiment of the utility model, the distance H between the first heating pipe 11 and the second heating pipe 12 is set within a certain range, so that the electrolytic piece 2 is convenient to mount, and the volume of the whole combined device can be reduced.

In some embodiments, as shown in FIG. 1, the shortest distance M from the connecting body 13 to the fixed member 3 is greater than or equal to 20 mm. In some embodiments, as shown in FIG. 1, the shortest distance M from the connecting body 13 to the fixing member 3 is less than or equal to 600 mm. According to the embodiment of the utility model, the distance between the connecting body and the fixing piece is limited, so that the combined device is more compact in structure and convenient to assemble.

In some embodiments, as shown in fig. 8, the electrolytic elements are located on both sides of the first heating pipe 11 and the second heating pipe 12 in the first direction (both sides in the x direction in fig. 1), and the first electrolytic element 2c is located on both sides of the first heating pipe 11 and the second heating pipe 12 in the first direction (both sides in the x direction in fig. 1) in fig. 8, wherein the shortest distance L3 between the first heating pipe 11 and/or the second heating pipe 12 and the electrolytic element 2 is greater than or equal to 1mm and less than or equal to 100 mm.

In some embodiments, as shown in fig. 8, the electrolytic element is disposed on one side of the heating assembly in the third direction (z direction in fig. 8). The third direction is perpendicular to the plane (the plane formed by xy in fig. 8) in which the heating assembly is located; wherein, the shortest distance L4 between the heating component 1 and the electrolytic component 2b in the third direction is greater than or equal to 1mm and less than or equal to 100 mm.

In some embodiments, as shown in fig. 1 and 2, the extending direction of the first heating pipe 11 and the extending direction of the second heating pipe 12 are parallel. Wherein the extending direction of the first heating pipe 11 represents the maximum dimension direction of the outer contour of the first heating pipe 11, that is, the length direction of the first heating pipe 11; the extending direction of the second heating pipe 12 means the direction of the largest dimension of the outer contour of the second heating pipe 12, i.e. the length direction of the second heating pipe 12. The first heating pipe 11 and the second heating pipe 12 are arranged in parallel, so that the assembly difficulty of the electrolytic part is reduced, and the assembly efficiency of the combined device is improved.

In some embodiments, as shown in fig. 1 and 2, the distance of the electrolysis element 2 to the first heating tube 11 and/or the second heating tube 12 is less than the third set value. In the embodiment of the present invention, the electrolytic element 2 is integrally assembled with the first heating tube 11 and the second heating tube 12, and the electrolytic element 2 can be disposed at any position relative to the first heating tube 11 and the second heating tube 12 as long as the distance from the electrolytic element 2 to the first heating tube 11 and/or the second heating tube 12 is less than a certain range. According to the embodiment of the utility model, the distance from the electrolytic part to the first heating pipe and/or the second heating pipe is smaller than the third set value, so that the difficulty of integrally assembling the disinfection component to the clothes treatment device is reduced, and meanwhile, the heat dissipation efficiency of the first heating pipe and the second heating pipe can be improved.

In some embodiments, as shown in fig. 1 and 2, the third set value is equal to or less than 170 mm. The distance between the first heating tube 11 and the second heating tube 12 and the electrolytic element 2 represents the maximum value of the distance between any point on the first heating tube 11 or the second heating tube 12 and any point on the electrolytic element 2. That is, the maximum value of the distance from any point on the heating element 1 to any point on the electrolytic element 2 is not more than 170 mm. According to the embodiment of the utility model, the distance between the first heating pipe and/or the second heating pipe is less than or equal to 170mm, so that the heat dissipation of the first heating pipe and the second heating pipe is facilitated, the difficulty in assembling the first heating pipe, the second heating pipe and the electrolytic part is reduced, the required assembling space of the combined device is saved, and the universality of the combined device is improved.

In some embodiments, as shown in fig. 1 and 2, the minimum distance of the electrolytic element 2 from the interconnector 13, which represents the minimum of the distances between any point on the electrolytic element 2 and any point on the interconnector 13, is less than 80 mm. The heat dissipation of the connecting body 13 is facilitated, the difficulty in assembling the connecting body 13 and the electrolytic part 2 is reduced, the space of the combined device required to be assembled is saved, and the universality of the combined device is improved.

In some embodiments, as shown in fig. 1, the assembly further comprises a fastener 4 and a fastener 5, wherein the fastener 4 and the electrode 21 are fixedly connected by the fastener 5. The electrode 21 can be attached to the heating assembly 1 by the fastener 5 and the fastener 4, for example, the electrode 21 is mounted on the fixing member 3 by the conductive connecting body 22, and the electrode 21 may be in a cantilever supporting state, so that the heating assembly 1 can improve the stress condition of the electrode 21 by attaching the electrode 21 to the heating assembly 1, and the working life and the working reliability of the electrolytic member 2 can be improved.

Referring to fig. 4 to 7, the present invention further provides a clothes treating apparatus, including the combination device 10 according to any one of the above embodiments, further including an inner tub (not shown) and an outer tub 6, wherein the inner tub is rotatably disposed in the outer tub 6, an escape opening (not shown) is formed on the outer tub 6, the electrodes 21 and the heating assembly 1 are disposed between the outer tub 6 and the inner tub, and the fixing member 3 seals the escape opening.

In the working process of the clothes treatment equipment provided by the embodiment of the utility model, when water is filled in the outer barrel 6, the combined device 10 is started, the combined device 10 can generate hydroxyl free radicals (OH) with strong oxidation activity, the OH has a very high oxidation potential (2.80eV), the oxidation capacity is very strong, the combined device can rapidly perform chain reaction with most organic pollutants, the OH can be used for sterilizing and disinfecting at a low temperature, no damage is caused to clothes, a part of the OH reacts with chlorine water in tap water to generate active chlorine, the active chlorine can exist for a long time, and the clothes treatment equipment has a long-term antibacterial effect; the combination device generates a large amount of hydroxyl free radicals to oxidize and destroy chromophoric groups of dye molecules dissociating into water in the colored clothes in the washing process so as to decolor the dye, prevent the dissociative dye from being stained into light-colored clothes to cause color cross, and continuously react to decompose the dye molecules into harmless carbon dioxide, water and inorganic salt. Meanwhile, the electrode can generate a large amount of hydrogen microbubbles, the diameter of the microbubbles is very small and is usually smaller than 50um, the microbubbles can well enter the fiber of the clothes in the washing process, and the microbubbles are exploded and adsorbed to float upwards to generate the microbubble circulation washing continuously, so that dirt such as sebum, grease and tiny dust accumulated in the fiber of the clothes can be thoroughly removed by the aid of the detergent, and the cleaning effect can be improved.

It should be noted that the laundry treatment apparatus in the embodiment of the present invention may be a washing machine, a spin dryer, or other types of devices, and is not limited herein. It is understood that the washing machine may be a pulsator washing machine, a drum washing machine, or other types of washing machines. In order to support the heating assembly, in the embodiment of the present invention, referring to fig. 5, the clothes treating apparatus includes a mounting bracket 7 connected to an inner side of the outer tub 6, and the heating assembly 1 is supported on the mounting bracket 7. The mounting bracket 7 plays a supporting role in the heating assembly 1, and particularly, the mounting bracket 7 and the fixing piece 3 support the heating assembly 1 together, so that the cantilever support of the heating assembly 1 is avoided, and the stress condition of the heating assembly 1 can be improved. The mounting bracket 7 may be of any suitable construction.

The assembly of the combination device 10 and the tub 6 according to the embodiment of the present invention will be described below with reference to fig. 4 to 7, taking the laundry treatment device as a drum washing machine as an example. Wherein, the axial one side of outer bucket 6 has the opening, and the opposite side of outer bucket 6 with the opening is the blind end. The embodiment of the present invention is described by taking the example that the avoiding opening is formed at the closed end, and it can be understood that the avoiding opening may also be formed at the circumferential direction of the outer tub 6 along the rotation direction. Before the assembly, can constitute a structure wholly with foretell heating element 1, mounting 3 and electrolysis spare 2 in advance, during the assembly, put into the mouth of dodging from the outside of outer bucket 6 with this structure is whole, mounting 3 with dodge mouthful around sealed butt, inwards promote electrolysis spare 2 until mounting 3 the surface with the outside surface butt of outer bucket 6 can, be convenient for quick, the accurate location of electrolysis spare 2. Afterwards, the connecting piece 8 is tensioned, and the fixing piece 3 generates elastic deformation, so that the positions of the fixing piece 3 around the avoidance opening on the inner side of the outer barrel 6 and around the avoidance opening on the outer side of the outer barrel 6 bulge out to the periphery, and then the fixing piece is clamped on the outer barrel 6 from the inner direction and the outer direction, and thus the quick sealing installation can be simply and conveniently realized.

In the embodiment, the heating assembly in the clothes treatment device is integrated with the electrolytic part through the fixing part, so that the structural arrangement of the heating assembly and the electrolytic part is more compact on one hand; on the other hand, the electrolysis part is convenient to be integrally assembled and disassembled relative to the clothes treatment device, and the combined device is convenient to be updated. If the heating assembly is arranged in the original clothes treatment device but the electrolytic element is not arranged, if the electrolytic element is added for sterilization and disinfection to improve the performance of products, the original heating assembly can be detached, the electrolytic element can be reinstalled at the position where the heating assembly is originally installed, and the clothes treatment device can be upgraded and replaced under the condition of basically not changing other installation structures of the clothes treatment device, so that the interchangeability is good, and the production cost is low. The distance between the heating assembly and the electrolytic part is set within the first set value, so that the difficulty of assembling the sterilizing assembly to the clothes treatment device is reduced, and the heat dissipation efficiency of the heating assembly can be improved; the combined device can be arranged in a narrow space, for example, between an inner drum and an outer drum of the clothes processing equipment, and the light and thin design of the combined device is facilitated. The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (11)

1. A combination, comprising:

a heating assembly;

the electrolytic piece is positioned on one side of the heating assembly in a first direction or a third direction, wherein the third direction is perpendicular to a plane where the heating assembly is positioned, and the first direction is perpendicular to the third direction.

2. The combination of claim 1, further comprising a fixture to which both the heating assembly and the electrolytic element are secured.

3. The combination of claim 2, wherein the heating assembly and the electrolytic element are at least partially located on the same side of the fixture.

4. The combination of claim 1, further comprising a fixture, wherein the heating assembly and the electrolytic element are each coupled to the fixture.

5. The combination assembly of claim 2, wherein the electrolytic component comprises an electrode and a conductive connector electrically connected to each other, the fixing component defines a first mounting hole therethrough, and the conductive connector is sealingly disposed through the first mounting hole.

6. The combination of claim 2, wherein the mounting member defines a second mounting hole therethrough, one end of the heater assembly sealingly passing through the second mounting hole.

7. The combination of claim 2, wherein the heating assembly comprises:

one end of the first heating pipe is connected with the fixing piece;

one end of the second heating pipe is connected with the fixing piece and is arranged at intervals in the first direction with the first heating pipe, and the extending direction of the second heating pipe is parallel to the extending direction of the first heating pipe;

and the connecting body is connected with the other end of the first heating pipe and the other end of the second heating pipe.

8. The combination of any one of claims 1-6, wherein the heating assembly comprises a first heating tube and a second heating tube, the first heating tube and the second heating tube being symmetric about a first plane of symmetry, the electrolytic element being symmetric about the first plane of symmetry, the first plane of symmetry being parallel to the third direction.

9. A laundry treating apparatus, comprising:

a combination as claimed in any one of claims 1 to 8.

10. The laundry treating apparatus according to claim 9, wherein the laundry treating apparatus includes an inner tub rotatably disposed within the outer tub, and an outer tub between which the electrolytic member and the heating assembly are disposed.

11. The laundry treating apparatus according to claim 10, comprising a mounting bracket connected to an inside of the outer tub, the heating assembly being supported on the mounting bracket.

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